Posit Arithmetic Hardware Implementations with The Minimum Cost Divider and SquareRoot

Authors :: Shuting Cheng
Feng Liang
Junzhe Liang
Bin Wu
Feibao Xiao
Guohe Zhang
Source :: Electronics, Volume 9, Issue 10, Electronics, Vol 9, Iss 1622, p 1622 (2020)
Publication Year :: 2020
Publisher :: Multidisciplinary Digital Publishing Institute, 2020.
Abstract: As a substitute for the IEEE 754-2008 floating-point standard, Posit, a new kind of number system for floating-point numbers, was put forward recently. Hitherto, some studies have proven that Posit is a better floating-point style than IEEE 754-2008 in some fields. However, most of these studies presented the advantages of Posit from the arithmetical aspect, but none of them suggested it had a better hardware implementation than that of IEEE 754-2008. In this paper, we propose several hardware implementations that contain the Posit adder/subtractor, multiplier, divider, and square root. Our goal is to achieve an arbitrary Posit format and exploit the minimum circuit area, which is required in embedded devices. To implement the minimum circuit area for the divider and square root, the alternating addition and subtraction method is used rather than the Newton&ndash<br />Raphson method. Compared with other works, the area of our divider is about 0.2&times<br />&ndash<br />0.7&times<br />(FPGA). Furthermore, this paper provides the synthesis results for each critical module with the Xilinx Virtex-7 FPGA VC709 platform.

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